Sensor-type semiconductor package and fabrication method thereof

1. A fabrication method of a sensor-type semiconductor package, comprising steps of: providing a wafer having a plurality of sensor chips; attaching light-permeable bodies to the sensor chips, wherein, each light-permeable body has a first surface, a second surface opposing to the first surface and a planar size smaller than that of a respective one of the sensor chips, a covering layer is mounted on the first surface, a ring-shaped adhesive layer is mounted on the second surface, and the light-permeable bodies are attached to the sensor chips through the ring-shaped adhesive layers on the second surfaces thereof; singulating the wafer so as to obtain a plurality of separated sensor chips with the light-permeable bodies attached thereon; providing a substrate module having a plurality of substrates; attaching the separated sensor chips to the substrates; electrically connecting the sensor chips to the substrates; forming an encapsulant on the substrate module for encapsulating the sensor chips and the light-permeable bodies by a molding process; cutting the encapsulant along edges of the light-permeable bodies to edges of the covering layers; removing the covering layers with a portion of the encapsulant mounted thereon so as to expose the light-permeable bodies from the encapsulant; and cutting between the substrates so as to obtain a plurality of sensor-type semiconductor packages.

2. The fabrication method of claim 1 , wherein each of the sensor chips has a sensor area and a plurality of bonding pads, an active surface with the sensor area and the plurality of bonding pads mounted thereon, and a non-active surface opposing to the active surface.

3. The fabrication method of claim 2 , wherein the non-active surface of the sensor chip is thinned and the sensor chip is selected before the step of attaching light-permeable bodies to the sensor chips.

4. The fabrication method of claim 2 , wherein the respective sensor chips are attached to the substrates through the non-active surfaces thereof, and the plurality of bonding pads of the respective sensor chips are connected to the substrates by a plurality of bonding wires.

5. The fabrication method of claim 1 , wherein the light-permeable bodies are made of glass, the covering layers are made of one selected from a group consisting of tape, epoxy resin and wax for forming each bonding between the covering layers and the light-permeable bodies smaller than that between the covering layers and the encapsulant.

6. The fabrication method of claim 1 , wherein during cutting the encapsulant along edges of the light-permeable bodies, a plurality of recesses are formed with respective depth thereof being at least corresponding to the edge of the covering layers.

7. The fabrication method of claim 6 , wherein a distance between each of the recesses and an adjacent one of the covering layers is not larger than 0.1 mm.

8. The fabrication method of claim 6 , wherein the recesses are 0.05 mm to 0.1 mm deeper than the bottom edges of the covering layers, and a distance between each of the recesses and an adjacent one of the covering layers is 0.05 mm.

9. The fabrication method of claim 1 , wherein each bonding between the covering layers and the encapsulant is greater than that between the covering layers and the light-permeable bodies.

10. The fabrication method of claim 1 , wherein a protruding portion is formed on a top surface of the encapsulant after the encapsulant around the light-permeable body is cut away, such that a clamping tool is employed to clamp the protruding portion for removing the covering layer with the portion of the encapsulant mounted thereon.

11. A fabrication method of a sensor-type semiconductor package, comprising the steps of: providing a substrate module having a plurality of substrates; attaching and electrically connecting a plurality of sensor chips to the substrates; attaching light-permeable bodies to the sensor chips, wherein, each light-permeable body has a first surface, a second surface opposing to the first surface and a planar size smaller than that of a respective one of the sensor chips, a covering layer is mounted on the first surface, a ring-shaped adhesive layer is mounted on the second surface, and the light-permeable bodies are attached to the sensor chips through the ring-shaped adhesive layers on the second surfaces thereof; forming an encapsulant on the substrate module for encapsulating the sensor chips and the light-permeable bodies by a molding process; cutting the encapsulant along edges of the light-permeable bodies to edge of the covering layers; removing the covering layers with a portion of the encapsulant mounted thereon so as to expose the light-permeable bodies from the encapsulant; and cutting between substrates so as to obtain a plurality of sensor-type semiconductor packages.

12. The fabrication method of claim 11 , each of the sensor chips has a sensor area and a plurality of bonding pads, an active surface with the sensor area and the plurality of bonding pads mounted thereon, and a non-active surface opposing to the active surface.

13. The fabrication method of claim 12 , wherein the non-active surface of the sensor chip is thinned and the sensor chip is selected before the step of attaching light-permeable bodies to the sensor chips.

14. The fabrication method of claim 12 , wherein the respective sensor chips are attached to the substrates through the non-active surfaces thereof, and the plurality of bonding pads of the respective sensor chips are connected to the substrates by a plurality of bonding wires.

15. The fabrication method of claim 11 , wherein the light-permeable bodies are made of glass, the covering layers are made of one selected from a group consisting of tape, epoxy resin and wax for forming each bonding between the covering layers and the light-permeable bodies smaller than that between the covering layers and the encapsulant.

16. The fabrication method of claim 11 , during cutting the encapsulant along edge of the light-permeable bodies, a plurality of recesses are formed with respective depth thereof at most 0.1 mm deeper than the edges of the covering layers.

17. The fabrication method of claim 16 , wherein a distance between each of the recesses and an adjacent one of the covering layers is not larger than 0.1 mm.

18. The fabrication method of claim 16 , wherein the recesses are 0.05 mm to 0.1 mm deeper than the bottom edges of the covering layers, and a distance between each of the recesses and an adjacent one of the covering layers is 0.05 mm.

19. The fabrication method of claim 11 , wherein each bonding between the covering layers and the encapsulant is greater than that between the covering layers and the light-permeable bodies.

20. The fabrication method of claim 11 , wherein a protruding portion is formed on a top surface of the encapsulant after the encapsulant around the light-permeable body is cut away, such that a clamping tool is employed to clamp the protruding portion for removing the covering layer with the portion of the encapsulant mounted thereon.